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/*
 * Copyright (c) 2003, 2013, Oracle and/or its affiliates. All rights reserved.
 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
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 * This code is distributed in the hope that it will be useful, but WITHOUT
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 * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
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package java.util;

import java.security.*;

/**
 * A class that represents an immutable universally unique identifier (UUID).
 * A UUID represents a 128-bit value.
 *
 * 

There exist different variants of these global identifiers. The methods * of this class are for manipulating the Leach-Salz variant, although the * constructors allow the creation of any variant of UUID (described below). * *

The layout of a variant 2 (Leach-Salz) UUID is as follows: * * The most significant long consists of the following unsigned fields: *

 * 0xFFFFFFFF00000000 time_low
 * 0x00000000FFFF0000 time_mid
 * 0x000000000000F000 version
 * 0x0000000000000FFF time_hi
 * 
* The least significant long consists of the following unsigned fields: *
 * 0xC000000000000000 variant
 * 0x3FFF000000000000 clock_seq
 * 0x0000FFFFFFFFFFFF node
 * 
* *

The variant field contains a value which identifies the layout of the * {@code UUID}. The bit layout described above is valid only for a {@code * UUID} with a variant value of 2, which indicates the Leach-Salz variant. * *

The version field holds a value that describes the type of this {@code * UUID}. There are four different basic types of UUIDs: time-based, DCE * security, name-based, and randomly generated UUIDs. These types have a * version value of 1, 2, 3 and 4, respectively. * *

For more information including algorithms used to create {@code UUID}s, * see RFC 4122: A * Universally Unique IDentifier (UUID) URN Namespace, section 4.2 * "Algorithms for Creating a Time-Based UUID". * * @since 1.5 */ public final class UUID implements java.io.Serializable, Comparable { /** * Explicit serialVersionUID for interoperability. */ private static final long serialVersionUID = -4856846361193249489L; /* * The most significant 64 bits of this UUID. * * @serial */ private final long mostSigBits; /* * The least significant 64 bits of this UUID. * * @serial */ private final long leastSigBits; /* * The random number generator used by this class to create random * based UUIDs. In a holder class to defer initialization until needed. */ private static class Holder { static final SecureRandom numberGenerator = new SecureRandom(); } // Constructors and Factories /* * Private constructor which uses a byte array to construct the new UUID. */ private UUID(byte[] data) { long msb = 0; long lsb = 0; assert data.length == 16 : "data must be 16 bytes in length"; for (int i=0; i<8; i++) msb = (msb << 8) | (data[i] & 0xff); for (int i=8; i<16; i++) lsb = (lsb << 8) | (data[i] & 0xff); this.mostSigBits = msb; this.leastSigBits = lsb; } /** * Constructs a new {@code UUID} using the specified data. {@code * mostSigBits} is used for the most significant 64 bits of the {@code * UUID} and {@code leastSigBits} becomes the least significant 64 bits of * the {@code UUID}. * * @param mostSigBits * The most significant bits of the {@code UUID} * * @param leastSigBits * The least significant bits of the {@code UUID} */ public UUID(long mostSigBits, long leastSigBits) { this.mostSigBits = mostSigBits; this.leastSigBits = leastSigBits; } /** * Static factory to retrieve a type 4 (pseudo randomly generated) UUID. * * The {@code UUID} is generated using a cryptographically strong pseudo * random number generator. * * @return A randomly generated {@code UUID} */ public static UUID randomUUID() { SecureRandom ng = Holder.numberGenerator; byte[] randomBytes = new byte[16]; ng.nextBytes(randomBytes); randomBytes[6] &= 0x0f; /* clear version */ randomBytes[6] |= 0x40; /* set to version 4 */ randomBytes[8] &= 0x3f; /* clear variant */ randomBytes[8] |= 0x80; /* set to IETF variant */ return new UUID(randomBytes); } /** * Static factory to retrieve a type 3 (name based) {@code UUID} based on * the specified byte array. * * @param name * A byte array to be used to construct a {@code UUID} * * @return A {@code UUID} generated from the specified array */ public static UUID nameUUIDFromBytes(byte[] name) { MessageDigest md; try { md = MessageDigest.getInstance("MD5"); } catch (NoSuchAlgorithmException nsae) { throw new InternalError("MD5 not supported", nsae); } byte[] md5Bytes = md.digest(name); md5Bytes[6] &= 0x0f; /* clear version */ md5Bytes[6] |= 0x30; /* set to version 3 */ md5Bytes[8] &= 0x3f; /* clear variant */ md5Bytes[8] |= 0x80; /* set to IETF variant */ return new UUID(md5Bytes); } /** * Creates a {@code UUID} from the string standard representation as * described in the {@link #toString} method. * * @param name * A string that specifies a {@code UUID} * * @return A {@code UUID} with the specified value * * @throws IllegalArgumentException * If name does not conform to the string representation as * described in {@link #toString} * */ public static UUID fromString(String name) { String[] components = name.split("-"); if (components.length != 5) throw new IllegalArgumentException("Invalid UUID string: "+name); for (int i=0; i<5; i++) components[i] = "0x"+components[i]; long mostSigBits = Long.decode(components[0]).longValue(); mostSigBits <<= 16; mostSigBits |= Long.decode(components[1]).longValue(); mostSigBits <<= 16; mostSigBits |= Long.decode(components[2]).longValue(); long leastSigBits = Long.decode(components[3]).longValue(); leastSigBits <<= 48; leastSigBits |= Long.decode(components[4]).longValue(); return new UUID(mostSigBits, leastSigBits); } // Field Accessor Methods /** * Returns the least significant 64 bits of this UUID's 128 bit value. * * @return The least significant 64 bits of this UUID's 128 bit value */ public long getLeastSignificantBits() { return leastSigBits; } /** * Returns the most significant 64 bits of this UUID's 128 bit value. * * @return The most significant 64 bits of this UUID's 128 bit value */ public long getMostSignificantBits() { return mostSigBits; } /** * The version number associated with this {@code UUID}. The version * number describes how this {@code UUID} was generated. * * The version number has the following meaning: *

    *
  • 1 Time-based UUID *
  • 2 DCE security UUID *
  • 3 Name-based UUID *
  • 4 Randomly generated UUID *
* * @return The version number of this {@code UUID} */ public int version() { // Version is bits masked by 0x000000000000F000 in MS long return (int)((mostSigBits >> 12) & 0x0f); } /** * The variant number associated with this {@code UUID}. The variant * number describes the layout of the {@code UUID}. * * The variant number has the following meaning: *
    *
  • 0 Reserved for NCS backward compatibility *
  • 2 IETF RFC 4122 * (Leach-Salz), used by this class *
  • 6 Reserved, Microsoft Corporation backward compatibility *
  • 7 Reserved for future definition *
* * @return The variant number of this {@code UUID} */ public int variant() { // This field is composed of a varying number of bits. // 0 - - Reserved for NCS backward compatibility // 1 0 - The IETF aka Leach-Salz variant (used by this class) // 1 1 0 Reserved, Microsoft backward compatibility // 1 1 1 Reserved for future definition. return (int) ((leastSigBits >>> (64 - (leastSigBits >>> 62))) & (leastSigBits >> 63)); } /** * The timestamp value associated with this UUID. * *

The 60 bit timestamp value is constructed from the time_low, * time_mid, and time_hi fields of this {@code UUID}. The resulting * timestamp is measured in 100-nanosecond units since midnight, * October 15, 1582 UTC. * *

The timestamp value is only meaningful in a time-based UUID, which * has version type 1. If this {@code UUID} is not a time-based UUID then * this method throws UnsupportedOperationException. * * @throws UnsupportedOperationException * If this UUID is not a version 1 UUID * @return The timestamp of this {@code UUID}. */ public long timestamp() { if (version() != 1) { throw new UnsupportedOperationException("Not a time-based UUID"); } return (mostSigBits & 0x0FFFL) << 48 | ((mostSigBits >> 16) & 0x0FFFFL) << 32 | mostSigBits >>> 32; } /** * The clock sequence value associated with this UUID. * *

The 14 bit clock sequence value is constructed from the clock * sequence field of this UUID. The clock sequence field is used to * guarantee temporal uniqueness in a time-based UUID. * *

The {@code clockSequence} value is only meaningful in a time-based * UUID, which has version type 1. If this UUID is not a time-based UUID * then this method throws UnsupportedOperationException. * * @return The clock sequence of this {@code UUID} * * @throws UnsupportedOperationException * If this UUID is not a version 1 UUID */ public int clockSequence() { if (version() != 1) { throw new UnsupportedOperationException("Not a time-based UUID"); } return (int)((leastSigBits & 0x3FFF000000000000L) >>> 48); } /** * The node value associated with this UUID. * *

The 48 bit node value is constructed from the node field of this * UUID. This field is intended to hold the IEEE 802 address of the machine * that generated this UUID to guarantee spatial uniqueness. * *

The node value is only meaningful in a time-based UUID, which has * version type 1. If this UUID is not a time-based UUID then this method * throws UnsupportedOperationException. * * @return The node value of this {@code UUID} * * @throws UnsupportedOperationException * If this UUID is not a version 1 UUID */ public long node() { if (version() != 1) { throw new UnsupportedOperationException("Not a time-based UUID"); } return leastSigBits & 0x0000FFFFFFFFFFFFL; } // Object Inherited Methods /** * Returns a {@code String} object representing this {@code UUID}. * *

The UUID string representation is as described by this BNF: *

     * {@code
     * UUID                   =  "-"  "-"
     *                           "-"
     *                           "-"
     *                          
     * time_low               = 4*
     * time_mid               = 2*
     * time_high_and_version  = 2*
     * variant_and_sequence   = 2*
     * node                   = 6*
     * hexOctet               = 
     * hexDigit               =
     *       "0" | "1" | "2" | "3" | "4" | "5" | "6" | "7" | "8" | "9"
     *       | "a" | "b" | "c" | "d" | "e" | "f"
     *       | "A" | "B" | "C" | "D" | "E" | "F"
     * }
* * @return A string representation of this {@code UUID} */ public String toString() { return (digits(mostSigBits >> 32, 8) + "-" + digits(mostSigBits >> 16, 4) + "-" + digits(mostSigBits, 4) + "-" + digits(leastSigBits >> 48, 4) + "-" + digits(leastSigBits, 12)); } /** Returns val represented by the specified number of hex digits. */ private static String digits(long val, int digits) { long hi = 1L << (digits * 4); return Long.toHexString(hi | (val & (hi - 1))).substring(1); } /** * Returns a hash code for this {@code UUID}. * * @return A hash code value for this {@code UUID} */ public int hashCode() { long hilo = mostSigBits ^ leastSigBits; return ((int)(hilo >> 32)) ^ (int) hilo; } /** * Compares this object to the specified object. The result is {@code * true} if and only if the argument is not {@code null}, is a {@code UUID} * object, has the same variant, and contains the same value, bit for bit, * as this {@code UUID}. * * @param obj * The object to be compared * * @return {@code true} if the objects are the same; {@code false} * otherwise */ public boolean equals(Object obj) { if ((null == obj) || (obj.getClass() != UUID.class)) return false; UUID id = (UUID)obj; return (mostSigBits == id.mostSigBits && leastSigBits == id.leastSigBits); } // Comparison Operations /** * Compares this UUID with the specified UUID. * *

The first of two UUIDs is greater than the second if the most * significant field in which the UUIDs differ is greater for the first * UUID. * * @param val * {@code UUID} to which this {@code UUID} is to be compared * * @return -1, 0 or 1 as this {@code UUID} is less than, equal to, or * greater than {@code val} * */ public int compareTo(UUID val) { // The ordering is intentionally set up so that the UUIDs // can simply be numerically compared as two numbers return (this.mostSigBits < val.mostSigBits ? -1 : (this.mostSigBits > val.mostSigBits ? 1 : (this.leastSigBits < val.leastSigBits ? -1 : (this.leastSigBits > val.leastSigBits ? 1 : 0)))); } }





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